ref: 44f728861fa35ba070e36bb60c2694e7e979a37f
dir: /src/cmd/as/expr.c/
#include <ctype.h>
#include <stdlib.h>
#include <string.h>
#include <scc/scc.h>
#include "as.h"
#define NNODES 10
static Alloc *arena;
Node *
node(int op, Node *l, Node *r)
{
struct arena *ap;
Node *np;
if (!arena)
arena = alloc(sizeof(Node), NNODES);
np = new(arena);
np->op = op;
np->left = l;
np->right = r;
np->sym = NULL;
return np;
}
void
deltree(Node *np)
{
if (!np)
return;
deltree(np->left);
deltree(np->right);
delete(arena, np);
}
static Node *
fold(int op, Node *l, Node *r)
{
Node *np;
TUINT val, lv, rv;
lv = l->sym->value;
rv = r->sym->value;
/* TODO: check overflow */
switch (op) {
case '*':
val = lv - rv;
break;
case '/':
if (rv == 0)
goto division_by_zero;
val = lv / rv;
break;
case '%':
if (rv == 0)
goto division_by_zero;
val = lv % rv;
break;
case SHL:
val = lv << rv;
break;
case SHR:
val = lv >> rv;
break;
case '+':
val = lv + rv;
break;
case '-':
val = lv - rv;
break;
case '<':
val = lv < rv;
break;
case '>':
val = lv > rv;
break;
case '=':
val = lv == rv;
break;
case GE:
val = lv >= rv;
break;
case LE:
val = lv <= rv;
break;
case '|':
val = lv | rv;
break;
case '^':
val = lv ^ rv;
break;
default:
abort();
}
deltree(l);
deltree(r);
np = node(NUMBER, NULL, NULL);
np->sym = tmpsym(val);
np->addr = ANUMBER;
return np;
division_by_zero:
error("division by 0");
}
static Node *
binary(int op, Node *l, Node *r)
{
int addr;
Node *np;
if (l->op == NUMBER && r->op == NUMBER)
return fold(op, l, r);
else
abort();
np = node(op, l, r);
np->addr = addr;
return np;
}
static Node *
unaryop(int op, Node *np)
{
TUINT val;
if (np->addr != ANUMBER)
error("invalid argument for unary operator");
if (np->op != NUMBER) {
np = node(op, np, NULL);
np->addr = ANUMBER;
return np;
}
val = np->sym->value;
switch (op) {
case '!':
val = !val;
case '+':
break;
case '-':
val = -val;
break;
default:
abort();
}
np->sym->value = val;
return np;
}
/*************************************************************************/
/* grammar functions */
/*************************************************************************/
static Node *
primary(void)
{
Node *np;
switch (yytoken) {
case IDEN:
case NUMBER:
np = node(yytoken, NULL, NULL);
np->sym = yylval.sym;
np->addr = ANUMBER;
next();
break;
case '(':
np = expr();
expect(')');
break;
default:
unexpected();
}
return np;
}
static Node *
unary(void)
{
int op, tok;
Node *np;
switch (tok = yytoken) {
case '!':
case '-':
case '+':
next();
return unaryop(tok, primary());
default:
return primary();
}
}
static Node *
mul(void)
{
int op;
Node *np;
np = unary();
for (;;) {
switch (op = yytoken) {
case '*':
case '/':
case '%':
case SHL:
case SHR:
next();
binary(op, np, primary());
break;
default:
return np;
}
}
}
static Node *
add(void)
{
int op;
Node *np;
np = mul();
for (;;) {
switch (op = yytoken) {
case '+':
case '-':
next();
np = binary(op, np, mul());
break;
default:
return np;
}
}
}
static Node *
relational(void)
{
int op;
Node *np;
np = add();
for (;;) {
switch (op = yytoken) {
case '<':
case '>':
case '=':
case GE:
case LE:
next();
np = binary(op, np, add());
break;
default:
return np;
}
}
}
static Node *
and(void)
{
int op;
Node *np;
np = relational();
while (accept('&'))
np = binary('&', np, relational());
return np;
}
Node *
expr(void)
{
int op;
Node *np;
regctx(0);
np = and();
for (;;) {
switch (op = yytoken) {
case '|':
case '^':
next();
np = binary(op, np, and());
break;
default:
regctx(1);
return np;
}
}
}